Contact details

Alessandro Mottura is a Professor of Physical Metallurgy in the School of Metallurgy anf Materials. He received his PhD in Materials Science and Engineering from Imperial College London (2010), working under Professor Mike W Finnis and Professor Roger C Reed, and his MEng in Materials Science and Engineering from Imperial College London (2006). Following his PhD, Professor Mottura joined the group of Professor Tresa M Pollock as a Research Fellow at the University of California, Santa Barbara and was hired by the University of Birmingham in June 2012.

His research interests revolve around the understanding of how chemistry affect phase stability and mechanical properties in advanced alloys (Ni-based superalloys, Co-based superalloys, Ti alloys). His research work combines atomic-scale modelling methods with a wide variety of experimental techniques.

Qualifications

PhD in Materials Science and Engineering, Imperial College London, 2010

MEng in Materials Science and Engineering, Imperial College London, 2006

Biography

Alessandro Mottura received his MEng degree (first class) in Materials Science and Engineering in 2006, from Imperial College London. He went on to study for a PhD in Metallurgy under the supervision of Professor Mike W Finnis and Professor Roger C Reed, also at Imperial College London. During his PhD, Alessandro Mottura focussed on explaining how rhenium additions affect the creep properties of single-crystal Ni-based superalloys. This work was part of a wider effort to establish a more rigorous path to the design of new alloys, carried out in collaboration with the University of Oxford, the University of Cambridge and the University of Birmingham. Alessandro’s research involved the use of density functional theory (DFT) simulations, atom probe tomography (APT) and extended x-ray absorption fine spectroscopy (EXAFS) to establish and clarify the role of rhenium in these alloys.

After obtaining his PhD, Alessandro joined the group of Professor Tresa M Pollock, at the University of California, Santa Barbara. At UCSB, Alessandro kept working on using DFT simulations to guide the design of new γ’-strengthened Co-based superalloys. Beside his involvement on the design of new Co-based superalloys, Alessandro also worked on building a new 3-dimensional characterisation tool that utilises a femtosecond laser to ablate material layer by layer, and an electron microscope to image the newly revealed surface at each step. Albeit working in a similar way to FIB-tomography (or serial-sectioning) this technique allows the generation of much larger multi-modal datasets that include both chemical and crystallographic information.

Alessandro joined the School of Metallurgy and Materials at the University of Birmingham in 2012. He was promoted to Senior Lecturer in 2016 and then Professor in 2019. He is currently Deputy Head of School and Undergraduate Admissions Tutor for the School of Metallurgy and Materials.